Business development goals:
Business training objectives: This major trains senior professionals in materials physics who master the basic theory and technology of materials science, have basic knowledge and skills related to materials physics, and can engage in research, teaching, scientific and technological development and related management in materials science and engineering and related fields.
Business training requirements: Students in this major mainly study the basic theories, knowledge and skills of materials science, receive the basic training of scientific thinking and scientific experiments, and have the basic ability to use the basic theories, knowledge and experimental skills of physics and materials physics to conduct material research and technical development.
Graduates should have the following knowledge and abilities:
1. Master the basic theories and knowledge of mathematics, physics and chemistry;
2. Master the basic knowledge, basic principles and basic experimental skills in material preparation (or synthesis), material processing, material structure and performance measurement, and material application;
3. Understand the general principles and knowledge of similar majors;
4. Familiar with national policies on materials science and engineering research, scientific and technological development and related industries, as well as domestic and foreign intellectual property laws and regulations;
5. Understand materials physics's theoretical frontier, application prospect and latest development trends, as well as the development of materials science and engineering industry;
6. Master the basic methods of information inquiry, literature retrieval in Chinese and foreign languages and obtaining relevant information by using modern information technology; Have the ability to design experiments, create experimental conditions, summarize, sort out and analyze experimental results, write papers and participate in academic exchanges.
Main course:
Main subjects: materials science, physics.
Main courses: basic physics, modern physics, solid state physics, material physics, etc.
Main practical teaching links: including production practice and graduation thesis. , usually arranged in 10-20 weeks.
Study time: four years
Degree awarded: Bachelor of Science or Engineering.
Similar majors: material physics, material science, material physics.
Question 2: What about the major of materials physics? Younger combined disciplines, this science is more complicated, you should pay attention to this, different schools are different, such as our school, material physics is science, other schools are engineering, different schools have different majors, and the focus of learning is different. It belongs to the Department of Materials Science with Material Chemistry. As far as I know, the employment rate in the whole country is generally low, and the employment rate in our school is not 90%. This science also has many basic disciplines, such as English physical chemistry, probability statistics, linear algebra, electrodynamics, quantum mechanics, solid physics and solid chemistry. These are very troublesome topics ... There is not much professional knowledge in this science, so many people choose to go to graduate school. Employment is relatively easy and the treatment is improved. It is recommended to go to graduate school, which has many directions. Solar cells, crystal materials, photoelectric materials, nano materials, electronic ceramics, semiconductor materials, etc. I haven't gone to graduate school yet, and I don't know much about it. I applied for the job because I didn't fill it out, so I finally took material physics ... I will be safe here. Have you chosen this major? Then study hard
Question 3: What courses do you want to study for the material physics major? I won't talk about the open class of the whole school. Specialized courses include mechanics, optics, electromagnetism, electrodynamics, thermodynamics and statistical physics, quantum mechanics, solid physics, amorphous and quasicrystalline physics, semiconductor physics, material analysis and testing, functional materials, theoretical mechanics, mathematical physics methods, laser principles and technologies, etc. There are almost so many specialized courses in our school.
Question 4: What about the major of materials physics? What about employment in the future? See which school is good, if the major is electronic materials.
If it is a metal material, it is not as good as engineering materials such as welding, nondestructive and molding.
Of course, science, especially this interdisciplinary subject, is generally more popular than any major in the Department of Materials.
No matter what major is promising in China, it depends on how many points you study. For example, if you get 7-8 points in the school exam, I guarantee that you are a hot seller. Remember, no matter what major, it is very limited to rely on books and teachers. You have to explore by yourself, you have to find such information by yourself, such as libraries, online, and even work in related factories during the summer vacation.
Question 5: What is the study content and employment direction of material physics major? This major aims to cultivate senior talents who are badly needed by the national economic development, have good scientific literacy and innovative spirit, master systematic professional knowledge and skilled experimental skills. Through the study of this major, students will have a solid foundation in materials science and engineering, master the relationship between the composition, structure and properties of inorganic nonmetallic materials, and study the preparation and application of ceramics, glass, refractories, crystal materials and their functional materials and composite materials; Cultivate senior engineering and technical personnel who have a solid foundation in materials science and engineering, can engage in scientific research, technology development, engineering design, production and operation management in the fields of preparation and structural research of inorganic nonmetallic materials, material molding and processing, and have strong practical ability and innovative spirit. Shandong University of Science and Technology has designed a new training mode for inorganic non-metallic materials engineering major, which focuses on the cultivation of students' all-round quality and innovative ability, so that students can have some autonomy in the choice of major direction according to their own learning interests. During the four years' study in our university, students systematically studied advanced mathematics, general physics, foreign languages, computers, engineering drawing, mechanical design, engineering mechanics, inorganic chemistry, physical chemistry, analytical chemistry, introduction to material science, material structure foundation, analytical chemistry, material analysis and testing technology, material physical properties, material mechanical properties, functional materials, ceramic technology, glass technology, fire-resistant technology, crystal materials and other foundations and specialties. Specialized elective courses such as nano-material science and technology, powder preparation technology, plasma technology and application, composite materials, nonmetallic materials, polymer materials, energy materials, hot stoves, inorganic materials and mechanical equipment, corrosion and protection of materials, application of computers in materials science, foundation of computational materials science, frontier lectures, etc. are offered to enable students to have solid basic knowledge and certain professional expertise. In addition, special attention is paid to the cultivation of students' practical ability. The main courses all contain a certain proportion of experimental contents, and specially set up practical links such as entrance education, metalworking practice, electrician practice, production practice, innovative experiment, graduation practice and graduation design, so as to cultivate students' ability to find, analyze and solve problems and improve their comprehensive quality. Graduates of this major have a wide range of employment choices and strong employment adaptability. They can not only engage in the research and development of new materials, new technologies and new processes, the improvement of material properties, technology and quality management, but also undertake the teaching and management work in related professional fields.
Question 6: What is the major of material physics in university? What will you do in the future? In which direction? I mainly study the basic theory, knowledge and skills of materials science, and have been trained in scientific thinking and scientific experiments. Have the basic ability to use physics and materials physics's basic theories, knowledge and experimental skills for material research and technology development.
Main subjects: materials science, physics.
Main courses: basic physics, modern physics, solid state physics, material physics, etc.
If you are employed in factories or other places in the future, you can continue to engage in scientific research or teaching in universities.
Question 7: What major does physics include? What majors does material science include? 1. Physics is a science to explore the objective laws of nature and a basic discipline with strong radiation. As the oldest subject, physics has not only accumulated the knowledge, methods and technologies to promote social progress and scientific and technological development, but also formed the basic concepts, scientific ethics and scientific spirit of objectively understanding the world. Therefore, physical training is an important way to cultivate high-quality talents.
The undergraduate major of Physics College is applied physics, which mainly cultivates compound talents with broad and solid mathematical foundation and skilled scientific experiment skills.
Professional interests include: basic physics, optics, condensed matter and material physics (including nanomaterials), plasma physics.
Main courses: general physics, experimental physics, theoretical physics, frontier of physics, advanced mathematics, electronic technology, computer application, etc.
Graduates of this major have a lot of opportunities to study for master's and doctoral students in physics, laser, optoelectronics, materials science, information, biology and other disciplines inside and outside the school and related research institutes. They have broad employment opportunities in research institutes, universities and enterprises and have good development prospects.
Reference:
phy.hust.edu/...id=800
◆ Training Scheme of Mathematics and Science in College of Science
Training objectives:
Cultivate outstanding talents with solid mathematical foundation, good scientific literacy, innovative consciousness and international competitiveness for basic sciences such as mathematics and physics, and cultivate compound talents with pioneering spirit and good scientific literacy for other applied disciplines closely related to basic sciences such as mathematics and physics.
◆ Undergraduate training program for physics major and basic science of mathematics and physics (direction of physics) in the Department of Physics.
Training objectives:
Cultivate high-quality basic research-oriented and applied research-oriented physics talents with solid theoretical foundation and strong scientific experiment ability. The undergraduate stage is mainly to lay a foundation, emphasizing to give students a broad and solid physical foundation. After graduation, some of them will continue to study in the field of physics, while others will use their rich physical foundation and good scientific literacy to study and work in other fields.
◆ Basic Science Undergraduate Training Program of Department of Mathematical Physics (Application Direction)
Training objectives:
Cultivate basic disciplines and other disciplines with higher requirements for mathematical physics, and cultivate new talents with solid mathematical foundation and good literacy. By strengthening the teaching of mathematics and physics, the undergraduates can master the solid basic theory of mathematics and physics and have strong physical experiment skills. At the same time, arrange certain teaching links to strengthen the cultivation of students' international communication ability and the edification of humanistic spirit. From the third grade, through scientific research and practical training, students are diverted to disciplines with high requirements for mathematics foundation (such as engineering technology, economic management, life science, etc.). ), and students choose the future development direction according to their own interests and abilities.
Reference: tsinghua.edu/publish/phy/5302/index
2. Materials are the material basis and forerunner of social progress, and materials, energy and information are considered as the three pillars of modern civilized society. Materials science and engineering is one of the key disciplines in developed countries and China, and materials industry is an important basic industry in China.
In order to meet the needs of modern science and technology and the development of China's national economy, the Department of Materials Science and Engineering is committed to cultivating high-level, high-quality and all-round materials science and engineering talents who can independently engage in scientific research, engineering design, technological transformation and management. They have solid basic theories of natural science and humanities and social sciences, computer application, a foreign language, strong training in engineering technology and modern instrument analysis and research methods, and extensive knowledge ...